What is the line charge density on a long wire if a 7.1 μg particle carrying 2.4 nC describes a circular orbit about the wire with speed 320 m/s? Express your answer using two significant figures. 15. ΑΣΦ " ? HC/m
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Q: What is the line charge density on a long wire if a 7.1 μg particle carrying 2.4 nC describes a…
A: Given: charge on particle, Q = 2.4 nC = 2.4 × 10-3 μC mass of particle, m = 7.1 μg = 7.1 × 10-6 g =…
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Q: Express your answer with the appropriate units. HA O) E ? Fon 1 = Value Units Submit Part B 1.0 nC…
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- An infinitely long line of charge has a linear charge density of 6.00×10-12 C/m. A proton is at distance 13.5 cm from the line and is moving directly toward the line with speed 2100 m/s. Part A How close does the proton get to the line of charge? Express your answer in meters. ▸ View Available Hint(s) VE ΑΣΦ Submit B ? mу 3m Next content resource A Q₁ = 4nc Q₂=2nc + 2m X Find the electric field strength at point A. (n = nano = 10-⁹) (in N/C) OA: 4.393 OB: 5.140OC: 6.014 OD: 7.037 OE: 8.233 OF: 9.632 OG: 11.270 OH: 13.186E field lines Consider the electric field pattern due to three charges shown. What are the signs of the charges? A) q, and q, and qą positive B) q, and q, negative, q, positive C) q, and q, positive, q, negative D) q, negative, q, and q, positive E) q, and q, and q, negative 4, 42
- Two electrons in a vacuum exert force of F = 4.63E-08 N on each other. They are then moved so that they are separated by x = 6.4 times their original distance. a. What is the force, in newtons, that the electrons experience at the new separation distance? b. How far apart, in meters, were the electrons originally?Part A Calculate the magnitude of the electric field at the center of a square 42.5 cm on a side if one corner is occupied by a -38.8 µC charge and the other three are occupied by -26.5 µC charges. Express your answer to three significant figures and include the appropriate units. HA ? E = Value Units Submit Request Answer Part B Choose the correct direction of the electric field at the center of the square. toward to –38.8 µC charge perpendicular to the diagonal passing through –38.8 µC charge outward of –38.8 µC chargeResponses should be as simple as possible, and in typed form, with all applicable units, following a clear and straightforward logical structure. NO hand-drawn explanations are allowed. Ensure the appropriate use of significant figures, and when applicable, employ the "variable space" framework for providing answers.
- 1. An electron, a proton, an a particle (i.e. the He nucleus consisting of 2 protons and 2 neutrons), and a chlorine ion (CI) are shot into a uniform electric field, perpendicular to the field lines, all with the same speed. а. Sketch the trajectories of the three particles. Show clearly which curvature is the greatest, and which is the smallest. Label, which is which. b. Order the magnitudes of forces acting on the particles – the greatest to the smallest С. Order the accelerations of the particles – the greatest to the smallest E V particleQuestion : Three conducting plates, each of area AAA, are connected as shown in the figure. Need help with Part B and C B: Determine CCC as a function of d1d1d_1, d2d2d_2, and AAA. Assume d1+d2d1+d2 is much less than the dimensions of the plates. Express your answer in terms of the variables AAA, d1d1d_1, d2d2d_2, and appropriate constants. C: The middle plate can be moved (changing the values of d1d1 and d2d2), so as to vary the capacitance. What is the minimum value of the net capacitance? Express your answer in terms of the variables AAA, d1d1d_1, d2d2d_2, and appropriate constants.Hey I am doing some physics homework and am stumped on this question. Any help will be great! Thanks!
- Гр Figure. The inner cylinder carries a uniformly distributed charge +Q on its surface, and (LOS) Q4. Two concentric cylindrical conducting shells, of radius Fa and rb as shown in the outer shell an equal but opposite charge-Q. Determine the capacitance. +Q ľaFigure 1.0 cm 2.0 nC + 1.0 nC + 60° 60° 1.0 cm < 1 of 1 1.0 cm +2.0 nC Part A What is the magnitude of the force on the 1.0 nC charge in (Figure 1)? Express your answer with the appropriate units. O µÃ ? Fon 1 = Value Units Submit Request Answer Part B What is the direction of the force in the part A? Specify the direction as an angle counterclockwise from the positive x-axis. Express your answer in degrees. VE ΑΣΦ Ć 6 = ° above horizontal Submit Next Provide Feedback Request AnswerYou have infinitely wide grounded conducting plates that have a finite thickness as shown in the figure. 바 ut H₁ Z q origin X tH tH = We want to find the voltage V(r) in the space between the conductors. A friend proposes to use the method of images. Their idea is to put i) a negative charge -q a distance d above the bottom surface of the top plate (at z 3d) and ii) put a negative charge -q at a distance d below the top surface of the bottom plate (at z = -d). Is the potential of the image charge distribution proposed a valid solution for the original problem? Briefly justify your answer.